[34] A. Kelkar, E. Yomba, and R. Djellouli, Solitary wave solutions and modulational instability in a system of coupled complex Newell–Segel–Whitehead equations, Communications in Nonlinear Science and Numerical Simulation, 41(2016), pp 118-139. (Kelkar was CSUN graduate student at the time of authorship).

[33] H. Barucq, R. Djellouli, and E. Estecahandy, Fréchet differentiability of the elasto-acoustic scattered field with respect to Lipschitz domains, Mathematical Methods in the Applied Sciences, (2015) DOI: 10.1002/mma.3444. (Estecahandy was Ph.D. student at the time of authorship).

[30] H. Barucq, R. Djellouli, and E. Estecahandy, A Characterization of the Frechet Derivative of the Elasto-Acoustic Field with respect to Lipschitz Domains, Journal of Inverse and Ill-Posed Problems, 22, 1, (2014) pp. 1--9. (Estecahandy was Ph.D. student at the time of authorship)

[29] H. Barucq, R. Djellouli, and E. Estecahandy, On the existence and the uniqueness of the solution of a fluidstructure interaction scattering problem, Journal of Mathematical Analysis and Applications, 412, 2, (2014) pp. 571--588, 2014. (Estecahandy was Ph.D. student at the time of authorship)

[17] R. Reiner, R. Djellouli, and I. Harari, Analytical and Numerical investigation of the performance of theBGT2 condition for low frequency acoustic scattering problems, Journal of Computational and Applied Mathematics, 204 (2), (2007), pp. 526--535. (Reiner was CSUN student and then became Ph.D. student at the University of Michigan, Ann-Arbor, at the time of authorship)

[8] R. Djellouli, C. Bekkey, A. Choutri, and H. Rezgui, A local boundary condition
coupled to a finite element method to compute guided modes of optical fibers under the weak guidance assumptions, Mathematical Methods in the Applied Sciences 23, (2000), pp. 1551--1583. (Bekkey was Ph.D. student at the time of authorship)

[7] C. Bekkey and R. Djellouli, An integral method to compute guided modes of an optical coupler in the vectorial case, Applied Mathematical Modeling 24, (2000), pp. 697--713. (Bekkey was Ph.D. student at the time of authorship)

[5] R. Djellouli and C. Farhat, On the characterization of the Frechet differentiability
with respect to a Lipschitz domain of the acoustic scattered field, Journal of Mathematical Analysis and Applications, 238, (1999), pp. 259--276.